Seroepidemiology of measles and rubella among Hong Kong young adults and the humoral responses of an MMR booster among participants with low antibody levels.

BACKGROUND: Some individuals may not retain adequate immunity against measles and rubella years after two doses of measles, mumps, and rubella (MMR) vaccination due to vaccine failure. This study aimed to investigate the rates of vaccine failure and seroconversion by administering an MMR booster to young adults. METHODS: We first assessed measles and rubella antibody levels using the Luminex multiplex assay, VIDAS IgG assay, and plaque reduction neutralization test (PRNT) among individuals aged 18-30 years old who had received two doses of MMR vaccine. Participants with low measles and/or rubella antibody levels as confirmed by VIDAS received an MMR booster. Antibody levels were measured at 1-month post-booster. RESULTS: Among 791 participants, the measles and rubella seroprevalence rates were 94.7% (95% CI: 92.9%-96.0%) and 97.3% (95% CI: 96.0%-98.3%), respectively. Lower seroprevalence rates were observed among older participants. 113 participants who received an MMR booster acquired higher measles and rubella antibody levels at 1-month post-booster compared to baseline. CONCLUSIONS: Although measles and rubella vaccine failures were observed among 5.3% and 2.7% of young adults, respectively, an MMR booster triggered a significant antibody response.

Formulation and antifungal performance of natamycin-loaded liposomal suspensions: the benefits of sterol-enrichment.

The aim of this study is to develop and evaluate food-grade liposomal delivery systems for the antifungal compound natamycin. Liposomes made of various soybean lecithins are prepared by solvent injection, leading to small unilamellar vesicles (<130 nm) with controlled polydispersity, able to encapsulate natamycin without significant modification of their size characteristics. Presence of charged phospholipids and reduced content of phosphatidylcholine in the lecithin mixture are found to be beneficial for natamycin encapsulation, indicating electrostatic interactions of the preservative with the polar head of the phospholipids. The chemical instability of natamycin upon storage in these formulations is however significant and proves that uncontrolled leakage out of the liposomes occurs. Efficient prevention of natamycin degradation is obtained by incorporation of sterols (cholesterol, ergosterol) in the lipid mixture and is linked to higher entrapment levels and reduced permeability of the phospholipid membrane provided by the ordering effect of sterols. Comparable action of ergosterol is observed at concentrations 2.5-fold lower than cholesterol and attributed to a preferential interaction of natamycin-ergosterol as well as a higher control of membrane permeability. Fine-tuning of sterol concentration allows preparation of liposomal suspensions presenting modulated in vitro release kinetics rates and enhanced antifungal activity against the model yeast Saccharomyces cerevisiae.

Controlled release from protein particles encapsulated by molecular layer deposition.

Molecular layer deposition (MLD) was used to coat micron-sized protein particles in a fluidized bed reactor. Our results show that the dissolution rate of particles coated via MLD rapidly decreases with the increase in number of coating cycles, while the uncoated particles dissolve instantaneously.

Vancomycin pharmacokinetics in infants: relationship to postconceptional age and serum creatinine.

Multidose pharmacokinetics of vancomycin were studied in 15 infants with gestational age less than 36 weeks and suspected or confirmed Staphylococcus epidermidis infections. Postconceptional age (PCA) at the time of the study ranged from 26 to 44 weeks. Vancomycin individual doses ranged from 6.7 to 10.6 mg/kg and were infused over 60 min. Five postinfusion samples were obtained in 13 infants, while 4 samples were obtained in 2 patients. Vancomycin pharmacokinetic parameters were determined by fitting the data to a two-compartment model using a weighted least-squares nonlinear regression method. Mean vancomycin body clearance (CL), volume of distribution (Vdss) and terminal elimination half-life were 1.37 ml/min, 0.58 liters and 5.6 h, respectively. When standardized for patient weight, the CL and Vdss values were 1.07 ml/min/kg and 0.48 liters/kg, respectively. The CL (ml/min/kg) was strongly inversely correlated with the serum creatinine (r = -0.82), while a weaker but significant association was noted with PCA (r = 0.41). These data suggest that in sick infants, in addition to the PCA, serum creatinine should be considered when determining the initial vancomycin dosing regimen.